DOCSLIB.ORG

Excretory System-Training Handout

Total Page:16

File Type:pdf, Size:1020Kb

Download full-text PDF Read full-text
Excretory System-Training Handout Excretory System-Training Handout Karen L. Lancour National Rules Committee Chairman – Life Science Excretion - Excretion is the removal of the metabolic wastes of an organism. Wastes that are removed include carbon dioxide, water, salt, urea and uric acid. All excreted wastes travel at some time in the blood. Organs of the Excretory System · Lungs - removal of excess carbon dioxide · Liver - produces urea and uric acid as a by-product of the breakdown of proteins · Skin - removal of excess water, salt, urea and uric acid · Urinary System - kidneys filter the blood to form urine, which is excess water, salt, urea and uric acid Importance: · Humans produce waste products that must be removed from their body. · Most animals have a system that deals with nitrogen-rich wastes from the breakdown of proteins and nucleic acids. · Ammonia (NH3) is toxic. · It helps maintain homeostasis – balancing osmotic action and pH. Urinary System Functions: · Excrete toxins and nitrogenous waste · Regulate levels of many chemicals in blood · Maintain water balance · Helps regulate blood pressure 1 Organs of the Urinary System Kidney – filters blood and forms urine- receives 20-25 % of arterial blood Homeostatic device – regulates composition of the blood Filtration – removes waste Ureter – carries urine to the urinary bladder Muscles contract and relax to move urine out of kidneys every 10 to 15 seconds to prevent infection Urinary Bladder – holds urine – it can hold up to 16 oz of urine for 2-5 hours Urethra – releases urine from the body by relaxing the sphincter muscle (circular muscle around the bladder opening to keep it from leaking) at bottom of bladder and contracting the bladder muscles 2 Functions of the kidney · filtration – fluid pressure forces water and dissolved substances out of blood · reabsorption – returns useful items as blood cells, plasma protein, glucose, amino acids, some salts and some water to the blood Some urea and other salts are also reabsorbed. · secretion – involves active transport - removes residues from toxins drugs, more urea and uric acid into urine, excess potassium ions, and regulates pH of blood Nephron – basic unit of kidney Overview of Nephron Structure and Function · General Nephron Structure o glomerulus – site of filtration from arterial blood o proximal convolute tubule– first tube off glomerulus . o Loop of Henle – U-turn connecting tubules o distal convoluted tubule – to the Collecting Tubule o collecting tubule – urine from many nephrons o peritubular capillaries – “around” the “tubes” · General Nephron Function o glomerular filtration o tubular reabsorption o tubular secretion · Fluid Processing in the Kidneys 180 liters of blood fluid processes each day 1.5 liters of urine produced each day 3 Nephron Function: 4 STAGES OF URINE FORMATION IN THE NEPHRON · Glomerular filtration – into Bowman’s Capsule o substances move from blood in glomerulus to the Bowman’s capsule · Tubular Reabsorption of solutes and water o Solute Reabsorption – from proximal tubule to capillary o substances move from renal tubules into blood of peritubular capillaries § glucose, water, urea, proteins, creatine § amino, lactic, citric, and uric acids § phosphate, sulfate, calcium, potassium, and sodium ions o Water Reabsorption – from proximal tubule and Loop of Henle to capillary · Tubular Secretion – from capillary to distal o substances move from blood of peritubular capillaries into renal tubules o drugs and ions 5 Glomerular Filtration A. Filtration Membrane 1. hydrostatic pressure – forces 1/5 of blood fluid through capillary walls into glomerular capsule 2. filtration membrane – has three parts a. fenestrated capillare endothelium (prevents passage of blood cells) b. basal membrane (allows most solutes but larger proteins) c. visceral membrane of glomerular capsule 3. solutes that can pass into glomerular capsule < 3 nm easily pass (water, sugar, amino acids, nitogenous waste molecules) Ø 9 nm larger proteins cannot pass through B. Net Filtration Pressure NFP = force OUT of blood – force to remain IN blood NFP = glomerular – (glomerular + capsular ) hydrostatic osmotic hydrostatic pressure pressure pressure NFP = 55 mm Hg – ( 30 mm Hg + 15 mm Hg ) NFP = 55 mm Hg – ( 45 mm Hg ) NFP = net filtration pressure = 10 mm Hg [This is the NET forces pushing fluid/solutes OUT of blood] C. Glomerular Filtration Rate (GFR) 1. glomerular filtration rate = milliliters of blood fluid filtered by glomerulus each minute Factors effecting the GFR: a. total filtration surface area b. membrane permeability to fluid/solutes c. Net Filtration Pressure 2. Normal GFR = 125 ml/min (7.5 L/hr, 180 L/day) 3. NFP – primary factor controlling GFR a. bleeding – NFP drops, lowers the pressure b. dehydration – NFP drops, lowers the pressure 6 D. Intrinsic Controls: Regulation of Glomerular Filtration 1. renal autoregulation – rate of FILTRATE production must be coordinated with reabsorption rate 2. myogenic mechanism – circular muscle around the glomerular arterioles reacts to pressure changes a. increased blood pressure -> vasoconstriction b. decreased blood pressure -> vasodilation 3. tubuloglomerular feedback mechanism – macula densa cells (of juxtaglomerular apparatus) sense the solute concentration of the FILTRATE a. low concentration -> vasodilation b. high concentration -> vasoconstriction 4. renin-angiotensin mechanism renin (released by juxtoglomerular cells) -> anigiotensinogen -> angiotensin I -> angiotensin II -> global vasoconstrictor (rise in blood pressure) release of aldosterone (resorption of more Na+) Factors causing release of Renin: a. reduced stretch of juxtaglomerular cells b. stimulation by macula densa cells (as above) c. stimulation of juxtaglomerular cells by sympathetics E. Extrinsic Controls: Sympathetic Innervation 1. sympathetics – cause increased release of renin 2. epinephrine – causes increased vasoconstriction Tubular Reabsorption: Reabsorbing the Glomerular Filtrate A. Overview of Reabsorption 1. filtrate - all fluid and its solutes pushed into the capsule 2. urine - filtrate minus reabsorbed substances 3. route of reabsorption (transepithelial process) luminal surface of tubule cells >> basolateral membrane of tubule cells >> interstitial fluid between tubule cells and capillaries >> endothelium of the peritubular capillary 4. most sugars and amino acids are reabsorbed 5. water and ion reabsorption depends on hormonal control 7 B. Active Tubular Reabsorption 1. glucose, amino acids, lactate, vitamins, ions a. move across luminal surface by diffusion b. actively transported across basolateral membrane i. contransported with Na+ c. diffuse into capillary by diffusion 2. transport maximum (Tm) - when “ carrier proteins” for specific solute becomes saturated and cannot carry the substance across the membrane a. diabetes mellitus – lower Tm (glucose lost) C. Passive Tubular Resorption 1. Na+ driven into interstitial space actively (above) - - + 2. HCO3 and Cl follow Na into the space 3. obligatory water resoprtion – water follows ions into the interstitial space between tubule & capillary 4. solvent drag – solutes will begin to move into tubule from filtrate, following water (especially some urea and lipid-soluble molecules D. Nonreabsorbed Substances 1. urea, creatinine, uric acid – most is not reabsorbed because of the following reasons a. no carrier molecules for active transport b. not lipid-soluble c. too large (as with most proteins) E. Absorption in Different Regions of Renal Tubule 1. proximal tubule – closest to the glomerular capsule a. almost all glucose & amino acids b. 75-80% of water and Na+ c. most active transport of ions 2. Loop of Henle – connects proximal & distal tubules Regulates Total water retained or lost: a. descending limb – water can return b. ascending limb – water can be reabsorbed 3. distal tuble & collecting duct – final passageway a. antidiuretic hormone (ADH) – causes increased permeability to Na+ and water, allow resorption b. aldosterone – stimulated be renin-angiotensin, enhances Na+ reabsorption (water follows) i. lower blood pressure ii. low Na+ concentration (hyponatremia) c. atrial natriuretic factor (ANF) – reduces Na+ permeability, less water (in response to high B.P.) Tubular Secretion A. Movement from Capillaries to Tubular Cells 1. K+, creatinine, ammonia, organic acids, drugs 2. Primary functions of tubular secretion: a. moving drugs into the urine b. moving more urea & uric acid into urine c. removing excess K+ from blood d. regulating pH (H+ ion removal) 8 Regulation of Urine Concentration & Volume A. Osmolarity – Number of Solute particles in 1 Liter water 1. independent of size of solute (Na+, glucose) 2. 1 osmol = 6.02 X 10^23 particle in 1 Liter 3. milliosmol (mosm) = 0.001 osmol 4. normal body fluids = 300 mosm B. Countercurrent Multiplier Mechanism for Maintenance of Blood/Urine Osmolarity 1. Water moves out along Descending Limb of the Loop of Henle, creating 1200 mosm urine at the base 2. Na+Cl- moves out along the Ascending Limb of the Loop of Henle, creating 100 mosm urine at distal end. This salt helps pull more water out of the Descending Limb in positive feedback mechanism. 3. In times of dehydration, Collecting Tubules leak urea to interstitial space, further increasing water retention by increasing osmolarity. 4. Vasa recta (capillaries around Loop of Henle) have no Net Effect on water/salt balance 9 C. Formation of Dilute Urine 1. When water removal is needed, no ADH is released, so that the Distal and Collecting Tubules will not actively transport
Load more

Recommended publications
  • Primary Excretory System Organs Kidneys Are Bean-Shaped Organs of a Reddish Brown Colour That Are Found in the Sides of the Vertebral Column
    Organs in the Excretory System and Their Functions The excretory system is essential to one’s health. Its responsibility is to remove waste from the body. The excretory system is made up of numerous organs that work in unison to ensure that waste is effectively removed from your body. Below are the details of the organs of excretory system, along with the roles they play in detoxification. Primary Excretory System Organs Kidneys are bean-shaped organs of a reddish brown colour that are found in the sides of the vertebral column. Once the body has extracted what it needs from food and drink, it sends the wastes to the kidneys. The kidneys filter the wastes, including urea, salt and excess water, which are flushed out of the body as urine. s 2. Skin The skin performs its excretory function via the sweat glands. These glands produce sweat that contains salt, excess oils, water, and other unnecessary substances which are then excreted out of the body through small pores. Sweating also helps to cool the body during evaporation. 3. Lungs The lungs are very important excretory organs as they expel carbon dioxide from the body via exhalation. The lungs use cells known as alveoli to remove the carbon dioxide from our blood. Otherwise, the carbon dioxide would accumulate and have a detrimental effect to our body. Accessary Excretory System Organs 1. Liver Although considered a secondary, or accessary excretory system organ, the liver plays a vital part in keeping the body clean. Harmful poisons and chemicals that are either produced in the body or consumed are broken down and detoxified by the liver.
    [Show full text]
  • Excretory Products and Their Elimination
    290 BIOLOGY CHAPTER 19 EXCRETORY PRODUCTS AND THEIR ELIMINATION 19.1 Human Animals accumulate ammonia, urea, uric acid, carbon dioxide, water Excretory and ions like Na+, K+, Cl–, phosphate, sulphate, etc., either by metabolic System activities or by other means like excess ingestion. These substances have to be removed totally or partially. In this chapter, you will learn the 19.2 Urine Formation mechanisms of elimination of these substances with special emphasis on 19.3 Function of the common nitrogenous wastes. Ammonia, urea and uric acid are the major Tubules forms of nitrogenous wastes excreted by the animals. Ammonia is the most toxic form and requires large amount of water for its elimination, 19.4 Mechanism of whereas uric acid, being the least toxic, can be removed with a minimum Concentration of loss of water. the Filtrate The process of excreting ammonia is Ammonotelism. Many bony fishes, 19.5 Regulation of aquatic amphibians and aquatic insects are ammonotelic in nature. Kidney Function Ammonia, as it is readily soluble, is generally excreted by diffusion across 19.6 Micturition body surfaces or through gill surfaces (in fish) as ammonium ions. Kidneys do not play any significant role in its removal. Terrestrial adaptation 19.7 Role of other necessitated the production of lesser toxic nitrogenous wastes like urea Organs in and uric acid for conservation of water. Mammals, many terrestrial Excretion amphibians and marine fishes mainly excrete urea and are called ureotelic 19.8 Disorders of the animals. Ammonia produced by metabolism is converted into urea in the Excretory liver of these animals and released into the blood which is filtered and System excreted out by the kidneys.
    [Show full text]
  • Essential Question: How Do Major Organ Systems Work Together in Living Organisms?
    Essential Question: How do major organ systems work together in living organisms? Standards: S7L2d. Explain that tissues, organs, and organ systems serve the needs cells have for oxygen, food, and waste removal. S7L2e. Explain the purpose of the major organ systems in the human body (i.e., digestion, respiration, reproduction, circulation, excretion, movement, control and coordination, and for protection from disease). Watch the video clip below and identify which system of the body has a similar function. http://www.youtube.com/ watch?v=8erOa6W67IM [watch 1 min 30 seconds] Digestive System Role of the Digestive System Series of organs that convert food into essential nutrients, and moves unwanted waste out How does it do it? Chewing • Mechanical Digestion – Breaking down food into smaller pieces • Teeth are used to break food into smaller pieces Esophagus Pipe connecting the mouth to the stomach (involuntary muscles) Stomach Food is chemically broken down by acid to form paste called Chyme Chemical Digestion Food is converted (changed) into substances that can be absorbed by the body Small Intestine Where the nutrients (glucose, protein, etc.) are absorbed into the bloodstream Large Intestine • Pulls out water from left overs • Last portion called rectum • Anus is the opening at the end Finish the Story Because Mrs. Fizzle’s class doesn’t want to exit Arnold “the back way”, they decide to go back the way they came. Write a brief explanation of the route they will take and what they will see and experience as they go back the way they
    [Show full text]
  • Excretory System
    Excretory System Excretory System • Functions • Removes wastes from blood • Removes harmful substances from blood • Regulates body fluids • Maintains homeostasis • Main Parts • Kidneys • Urinary bladder • Large intestine • Lungs • Skin Urinary System: • Not all the waste products that leave the body are solid. • Most liquid wastes formed by the body are excreted by the urinary system. Bladder • Muscular sac in the pelvis • Urine is made in the kidneys and travels down two tubes called ureters to the bladder • Urine exits the bladder into the urethra, which carries out of the body Large Intestine: • The undigested material not absorbed by the large intestine forms a semi- solid waste product known as feces. These solid wastes are removed by the body through the rectum. Kidneys: • The main organs of the urinary system • Bean-shaped organs in your abdomen that filter blood and remove waste. • The wastewater, or urine, that has been filtered out of the blood moves into the ureters, tubes that connect the kidneys to the bladder. • The bladder is a muscular sac that holds urine until it exits the body through the urethra. The Lungs: • The lungs are another part of the excretory system. • Lungs are part of the respiratory system, also. • Wastes removed by the lungs include carbon dioxide and water vapor produced by cellular respiration. The Skin • The skin also functions in excretion. • Sweat glands in the skin produce perspiration. • When a person perspires, the skin excretes water and salts. Working Together Works with the circulatory system in transporting blood through kidneys. Urea, uric acid, and water are removed from the blood and most of the water is put back in the system.
    [Show full text]
  • Ch. 38 Excretory System Vena Cava Aorta
    Digestive System Mouth • Digestion begins in the ________Mouth . ________Chewing begins the process of digestion • __________________Mechanical digestion - is the physical breakdown of large pieces of food into smaller pieces. • __________________Chemical digestion - large food molecules are broken down into smaller food molecules with the help of different enzymes. Mouth • _______________salivary glands secrete saliva, which contains the enzyme _________amylase to break the bonds in _________starches (which is what type of macromolecule: ______________)Carbohydrate and releases sugar. It also contains the enzyme __________lysozyme that fights infection by digesting the cell walls of ________bacteria . The saliva also helps ___________moisten the food and make it easier to chew. The release of saliva is under the control of the ________________nervous system Esophagus • Your ________tongue and your throat_______ muscles help you swallow your food, which (after swallowing) is now called a _______bolus . As you swallow, the epiglottis________ closes over the _______trachea and the bolus enters the __________.esophagus Gravity______ is not responsible for food going down into the stomach. Esophagus • A series of contractions of _______smooth muscle squeeze the food through the ___________esophagus . This is called peristalsis_________ . A thick ring of muscle called the cardiac_____________sphincter closes the esophagus and prevents the contents of the ________stomach from moving back into the esophagus (also known as acid reflux____). ***Remember: No Digestion_ occurs in the esophagus. Stomach • Food from the esophagus empties into a large muscular sac called the ___________stomach . Alternating contractions of the stomach’s ____3 smooth muscle layers churn_____ and mix the food____. Stomach- Chemical digestion: • The stomach contains microscopic _______________Gastric glands that produce and release various substances. Some of these include: • ________Mucus - a fluid that __________lubricates and _________protects the stomach wall.
    [Show full text]
  • Excretory System
    Excretory system Components The excretory system, or urinary system, is made up of the two kidneys, ureters, bladder and urethra, together with the branches of the two renal arteries and veins. Functions The kidneys are responsible for osmoregulation and the elimination of toxic wastes, including nitrogenous excretion. Osmoregulation is important as extracellular fluid must not induce osmosis either by causing cells to lose water and shrink or to gain water and swell up. Nitrogenous excretion is necessary as amino acids cannot be stored by the body. Proteins obtained in food invariably contain an imbalance of certain amino acids – they are not in the correct Figure 1 The excretory system. proportions for use in protein synthesis in the body. Those that cannot be assimilated are deaminated by the liver, forming fatty acids and ammonia. Most of the highly toxic ammonia is rapidly converted to urea to be removed from the body by the kidneys in urine. The kidneys not only excrete metabolic wastes including ammonia, urea, uric acid and creatinine, but have the main responsibility for maintaining the stability of extracellular fluid volume, inorganic ion composition and osmolarity (solute concentration). They contribute to maintenance of pH and also secrete certain hormones. Key mechanisms The functional unit in a kidney is the nephron (kidney tubule). Blood is filtered: Each nephron is made up of a filtering unit - Bowman’s capsule, and a tubule. Each capsule contains a tight knot of capillaries, called the glomerulus. Blood flows into the glomeruli under pressure forcing a filtrate free of cells and protein through the capillary walls.
    [Show full text]
  • Human Systems
    CONSEJERÍA DE EDUCACIÓN Dirección General de Participación e Innovación Educativa Identificación del material AICLE TÍTULO Human systems NIVEL LINGÜÍSTICO A1.2 SEGÚN MCER IDIOMA Inglés ÁREA / MATERIA Conocimiento del Medio Natural, Social y Cultural Aspectos básicos sobre los diferentes aparatos del ser humano, los órganos NÚCLEO TEMÁTICO que los componen y cómo funcionan. Secuencia didáctica que describe los diferentes aparatos que conforman el ser humano, destacando el aparato digestivo, respiratorio, circulatorio, reproductor GUIÓN TEMÁTICO y digestivo, así como sus órganos y las funciones y procesos que desarrollan en el ser humano. FORMATO PDF CORRESPONDENCIA 4º de Educación Primaria CURRICULAR AUTORÍA Miguel Ángel Cabo Sánchez. TEMPORALIZACIÓN 7-8 sesiones APROXIMADA - Aprender a aprender: los alumnos/as trabajan de forma autónoma en múlti- ples de las actividades a lo largo de la unidad. - Competencia lingüística: los alumnos/as interactúan de forma oral y escrita en diversidad de actividades. Se integran todas las destrezas en las diferentes actividades. También se presenta el proyecto de forma oral. - Competencia en el conocimiento e interacción con el mundo físico: los alum- nos/as conocen y descubren su cuerpo y funcionamiento de este. COMPETENCIAS - Competencia digital y tratamiento de la información: los alumnos/as hacen BÁSICAS uso de las TIC para ampliar información en torno al ser humano y sus carac- terísticas. - Competencia cultural y artística: los alumnos/as realizan un proyecto sobre un aparato humano usando diferentes materiales de reciclado u otros. Fo- mento de la creatividad. - Autonomía e iniciativa personal: los alumnos/as investigan y eligen el aparato que desean para llevar a cabo su proyecto.
    [Show full text]
  • Human Anatomy and Body Systems Levels of Organization
    Human Anatomy and Body Systems Levels of Organization Remember, the human body is organized in several levels, from the simplest to the most complex. Cells – the basic unit of life Tissues – clusters of cells performing a similar function Organs – made of tissues that perform one specific function Organ Systems – groups of organs that perform a specific purpose in the human body ***The purpose of the 11 organ systems is for the human body to maintain homeostasis. 4- Cell types muscle tissue most abundant tissue controls internal movement digestion, blood through veins external movement of body epithelial tissue covering for body & organs linings of organs & vessels connective tissue holds organs in place ligaments, tendons, some keep organs in place nervous tissue receives messages from body’s internal and external messages analyze data & direct response The 11 Human Body Systems The 11 human body systems are as follows: -- nervous system -- integumentary system -- respiratory system -- digestive system -- excretory system -- skeletal system -- muscular system -- circulatory system -- endocrine system -- reproductive system -- lymphatic (immune) system The Circulatory System Purpose: to deliver oxygenated blood to the various cells and organ systems in your body so they can undergo cellular respiration Cell type - Muscle Major Organs and Their Functions Heart – the major muscle of the circulatory system -- pumps deoxygenated blood into the lungs, where it gets oxygenated, returned to the heart, and then pumped out through the aorta to
    [Show full text]
  • Urinary System 1
    THE URINARY SYSTEM 1 BY Dr. BHAGAT SINGH JAISWAL ASSISTANT PROFESSOR SCHOOL OF STUDIES IN PHARMACEUTICAL SCIENCES JIWAJI UNIVERSITY GWALIOR M.P., INDIA 2 The urinary system plays a vital part in maintaining homeostasis of water and electrolytes within the body. The kidneys produce urine that contains metabolic waste products, including the nitrogenous compounds urea and uric acid, excess ions and some drugs. The urinary system is the main excretory system and consists of the following structures: • 2 kidneys, which secrete urine • 2 ureters that convey the urine from the kidneys to the urinary bladder • Urinary bladder, which collects and stores urine the urethra through which urine leaves the body 3 The main functions of the kidneys are: Formation of urine, maintaining water and electrolyte Regulating blood pH Excretion of waste products and foreign substances Production and secretion of Calcitriol (active form of Vitamin D) and Erythropoietin, the hormone that stimulates formation of RBC Production and secretion of Renin, an important enzyme in the control of blood pressure Maintaining blood osmolarity Regulating blood glucose level Regulating blood volume • Urine is stored in the bladder and excreted by the process of micturition. KIDNEYS 4 The kidneys lie on the posterior abdominal wall, one on each side of the vertebral column, behind the peritoneum and below the diaphragm. They extend from the level of the 12th thoracic vertebra to the 3rd lumbar vertebra, receiving some protection from the lower rib cage. • The right kidney is usually slightly lower than the left, probably because of the considerable space occupied by the liver. • Kidneys are bean-shaped organs, about 11 cm long, 6 cm wide, 3 cm thick and weigh 150 g.
    [Show full text]
  • The Human Body—Respiratory and Excretory Systems April 20 – April 24 Time Allotment: 30 Minutes Per Day
    Life Science 7: The Human Body—Respiratory and Excretory Systems April 20 – April 24 Time Allotment: 30 minutes per day Student Name: ________________________________ Teacher Name: ________________________________ Life Science 7: Respiratory and Excretory Systems April 20 – April 24 Packet Overview Date Objective(s) Page Number Monday, April 20 1. Explain the functions of the respiratory system. 2 2. Assess the importance of gas exchange and surface area in the respiratory system. Tuesday, April 21 1. Explain how humans breathe and what other 4 organ systems are directly involved with the respiratory system. 2. Assess how speech is formed and compare speech in humans to communication in elephants. Wednesday, April 22 1. Analyze the respiratory system function through 6 hands on lab. Thursday, April 23 1. Explain the function of the excretory system. 8 2. Analyze what chemical analysis of urine can tell us about human health. Friday, April 24 School Holiday N/A Additional Notes: Welcome to your fifth week of Life Science distance learning. Your lab on Wednesday will include a write up of your observations and conclusions, which will count for a minor assessment grade. I encourage you all to attend Zoom sessions, even if you don’t think you have questions about the material…we’ve had great discussions to augment the material in the packets! Be well, my fine Great-Hearted scholars! Zoom Office Hours: 2nd Period: Monday & Wednesday, 11:00 am to 11:50 am 3rd Period: Monday & Wednesday, 1:00 pm to 1:50 pm 4th Period: Tuesday & Thursday, 10:00 am to 10:50 am 5th Period: Tuesday & Thursday, 11:00 am to 11:50 am 6th Period: Tuesday & Thursday, 1:00 pm to 1:50 pm Academic Honesty I certify that I completed this assignment I certify that my student completed this independently in accordance with the GHNO assignment independently in accordance with Academy Honor Code.
    [Show full text]
  • NOTES: Urinary (Excretory) System (CH 15) Part 1 – Anatomy of the Urinary System Urinary (Excretory) System…
    NOTES: Urinary (Excretory) System (CH 15) Part 1 – Anatomy of the Urinary System Urinary (Excretory) System… *The urinary system consists of the kidneys, ureters, urinary bladder, and urethra.. Functions of the Urinary System: 1) remove salts and nitrogenous wastes from the blood 2) maintain normal water and electrolyte concentrations within body fluids 3) regulates pH and volume of body fluids 4) helps control red blood cell production and blood pressure ORGANS OF THE URINARY SYSTEM 1) KIDNEYS: remove substances from the blood; form urine 2) URETERS: transport urine from the kidneys 3) URINARY BLADDER : stores urine 4) URETHRA : conveys urine to the outside of the body ● KIDNEYS located high on the posterior abdominal wall each kidney is divided into the: *CORTEX : outer region *MEDULLA : inner region *PELVIS : funnel-shaped region where superior end of ureters expands KIDNEY FUNCTIONS: 1) remove metabolic wastes from the blood & combine them with water formation of urine 2) secrete hormone erythropoietin control of red blood cell formation 3) involved in activation of vitamin D 4) help to maintain blood pressure KIDNEY BLOOD SUPPLY: • RENAL ARTERIES : arise from abdominal aorta ; supply blood to kidney branches into smaller arteries & eventually into the AFFERENT ARTERIOLES • blood returns to the inferior vena cava through the RENAL VEINS ● URETERS each ureter is about 25 cm long begin at the renal pelvis; extend downward and join the URINARY BLADDER from underneath ● URETERS 3 layers: 1) inner layer (mucous coat): continuous
    [Show full text]
  • Respiratory & Excretory Systems Respiratory System Path of Air
    34.2 and 34.3 Respiratory and Excretory Systems Respiratory System Respiratory · sustains cellular respiration (making ATP) by supplying O2 to body cells & Excretory Systems removing CO2 waste from cells Sections 34.2 & 34.3 · 2 processes breathing = moving air into and out of lungs respiration = exchange of gases in the body external = gas exchange between air and blood internal = gas exchange between blood and body cells Path of Air · enters mouth and nose Breathing hairs filter out dust and lg. particles · rate controlled by brain cilia sweep foreign particles responds to levels of CO2 toward throat in bloodstream mucous membranes warm and · inhalation moisten diaphragm contracts, · filtered air enters the pharynx (throat) ribcage expands, and · passes through epiglottis into the air fills lungs larynx (voice box) · exhalation · trachea (windpipe) bronchi lungs diaphragm relaxes, · inside each lung bronchi branch into ribcage contracts, and air flows out of lungs bronchioles · bronchioles lead to alveoli (little air sacs) where external respiration occurs O2 into capillaries CO2 back into lungs for exhale Excretory System Kidneys · aka urinary system · bean-shaped · functions · filter out wastes, water, and remove water (nitrogen-based) and excess water salts from the blood from body · renal cortex - outer layer maintain pH of blood · renal medulla - inner layer · structures · composed of nephrons kidneys, ureters, urinary bladder, urethra 34.2 and 34.3 Respiratory and Excretory Systems Nephrons · filtering unit of the kidney about 1 million in each kidney · blood is filtered in the glomerulus · anything the body needs or can reuse is reabsorbed as it travels through the nephron ex.
    [Show full text]